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- W2743263191 abstract "Worldwide literature shows that the potential for electricity generation of every geothermal source is depended on the local condition, so the exploration phase is an important step in the geothermal power development to identify the site, structural feature and temperature parameters of a geothermal system-reservoir. The paper presents some results of the first experiment carried out by using a combination of geological, geochemical, geophysical methods, and temperature measurements in shallow drilling hole (depth 250 m) were applied for investigation in the Bang hot water spring area, Quang Binh province, during the period from 2012 to 2015. The location and structural feature of geothermal reservoir identified by the resistivity model obtained from the magneto-telluric survey and geochemical analysis was a good consistency with the existent reservoirs of a typical hydro-geothermal system of magmatic origin. The temperature gradient and heat flow at the shallow drilling hole are reached 4.1°C/100m and 83.4 mW/m2, respectively. The reservoir temperatures estimated by both geochemical thermometer and temperature modeling are varied in a range 167-200°C at the depth >2 km. The obtained results allow to determine the suitable location for test drilling to the reservoir and to propose for the next phase of the Geothermal Program in the area.References Arnorsson S., 1985. The use of mixing models and chemical geothermometers for estimating underground temperatures in geothermal systems. J. Volcan. Geoth. Res., 23, 209-335. Bertani R, 2015. Geothermal Power Generation in the World 2010-2014 Update Report. Proceedings World Geothermal Congress 2015 Melbourne, Australia, 19-25, April, 19p. Brikowski T., Norton D., Blackwell D., 2001. Final Report: Natural State Models of The Geysers Geothermal System, DOE Contract DE-FG07-98ID13677. December 31. Bui Cong Que, Nguyen Kim Lap, 1992. Structure of the Earth’s crust and seismicity in the territory of Vietnam. The Book published by Vietnam Academy of Science, 148p. Carol A. Stein, 1995. Heat flow of the Earth, in the Book “ Global Earth Physics” edited by AGU1995, 144-158. Chandrasekharam D., Jochen Bundschuh. Low-Enthalpy geothermal resources for power generation. Taylor & Francis Group, London, UK, 172p. Di Pippo R., 2012. Geothermal Power plant. Principles, applications, case studies. 3rd edition. Elsevier, 579p. Dinh Van Toan, Nguyen Trong Yem, Trinh Viet Bac, 1996. The preliminary results of heat flow study in South Vietnam. Vietnam Journal of Earth Sciences, 18, 74-79. Dinh Van Toan, Lai Hop Phong, Tran Anh Vu, Nguyen Thi Hong Quang, 2015. Study on the Earth’s crustal structure in the area of Song Tranh and it’s adjacents. Vietnam Journal of Earth Sciences, 37, 127-138 (in Vietnamese). DOI: 10.15625/0866-7187/37/2/7368. Doan Van Tuyen, Tran Anh Vu, Nguyen Thi Kim Thuong, 2014. 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IGA report, 2013. Geothermal Exploration best practices: A Guide to resource data collection, analysis, and presentation for Geothermal projects. Lucak C.V., 1988. Heat flow in the Continental rift zones. Publish House “ Nauka” Soviet Union Academy of Science, Novosibirsk Branch, 1988, 198 pp. ( in Russian language ). Munoz, G., 2014. Exploring for Geothermal Resources with Electromagnetic Methods, Surv Geophys, 35, 101-122. Nguyen Hoang, Flower M., Pham Tich Xuan, 1996. The petrology of Late Kainozoic Basalts in Vietnam. In monography “Geology and Natural resource”, P.H. Science and Technology, Ha Noi, 142-155 (in Vietnamese). Nguyen Xuan Han et al., 1991. Young volcano activity in Vietnam East Sea. In monography “Geology and Natural resource”, PH Science and Technology, Ha Noi, 84-96 (in Vietnamese). Phan Cu Tien et al., 1991. Geology of Cambodia, Laos and Vietnam. Geological survey of Vietnam, 2-nd edition. Hanoi, 158p. Powell T. and Cumming, M. 2010. 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Survey Open-File Report 2008-1296, 27p., [http://pubs. usgs.gov/ of/2008/ 1296/]." @default.
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- W2743263191 title "Identification of geothermal reservoir from exploration data in the Bang hot spring area, Central Vietnam" @default.
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